Litcius/Paper detail

Roughness induced rotational slowdown near the colloidal glass transition

Beybin Ilhan, Frieder Mugele, Michael H.G. Duits

2021Journal of Colloid and Interface Science14 citationsDOIOpen Access PDF

Abstract

HYPOTHESIS: In concentrated suspensions, the dynamics of colloids are strongly influenced by the shape and topographical surface characteristics of the particles. As the particles get into close proximity, surface roughness alters the translational and rotational Brownian motions in different ways. Eventually, the rotations will get frustrated due to geometric hindrance from interacting asperities. EXPERIMENTS: We use model raspberry-like colloids to study the effect of roughness on the translational and rotational dynamics. Using Confocal Scanning Laser Microscopy and particle tracking, we simultaneously resolve the two types of Brownian motion and obtain the corresponding Mean Squared Displacements for varying concentrations up to the maximum packing fraction. FINDINGS: Roughness not only lowers the concentration of the translational colloidal glass transition, but also generates a broad concentration range in which the rotational Brownian motion changes signature from high-amplitude diffusive to low-amplitude rattling. This hitherto not reported second glass transition for rough spherical colloids emerges when the particle intersurface distance becomes comparable to the roughness length scale. Our work provides a unifying understanding of the surface characteristics' effect on the rotational dynamics during glass formation and provides a microscopic foundation for many roughness-related macroscale phenomena in nature and technology.

Topics & Concepts

Rotational diffusionSurface finishColloidBrownian motionSurface roughnessRotation around a fixed axisSlowdownParticle (ecology)Materials scienceWork (physics)Dynamics (music)Brownian dynamicsGlass transitionRotational speedChemical physicsOpticsRotational dynamicsRange (aeronautics)Condensed matter physicsParticle sizeColloidal particleVideo microscopyNanotechnologyGold ColloidSurface (topology)ChemistryMechanicsDiffusionMolecular physicsClassical mechanicsGranular materialFractional Brownian motionRotation (mathematics)Structure factorSquare (algebra)Material Dynamics and PropertiesPickering emulsions and particle stabilizationTheoretical and Computational Physics